microcode/aic7xxx/aicasm_symbol.c

1.1  fvdl /*	$NetBSD: aicasm_symbol.c,v 1.1 2000/03/15 02:09:14 fvdl Exp $	*/
1.1  fvdl
1.1  fvdl /*
1.1  fvdl  * Aic7xxx SCSI host adapter firmware asssembler symbol table implementation
1.1  fvdl  *
1.1  fvdl  * Copyright (c) 1997 Justin T. Gibbs.
1.1  fvdl  * All rights reserved.
1.1  fvdl  *
1.1  fvdl  * Redistribution and use in source and binary forms, with or without
1.1  fvdl  * modification, are permitted provided that the following conditions
1.1  fvdl  * are met:
1.1  fvdl  * 1. Redistributions of source code must retain the above copyright
1.1  fvdl  *    notice, this list of conditions, and the following disclaimer,
1.1  fvdl  *    without modification.
1.1  fvdl  * 2. The name of the author may not be used to endorse or promote products
1.1  fvdl  *    derived from this software without specific prior written permission.
1.1  fvdl  *
1.1  fvdl  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.1  fvdl  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  fvdl  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  fvdl  * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
1.1  fvdl  * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  fvdl  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  fvdl  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  fvdl  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  fvdl  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  fvdl  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  fvdl  * SUCH DAMAGE.
1.1  fvdl  *
1.1  fvdl  * $FreeBSD: src/sys/dev/aic7xxx/aicasm_symbol.c,v 1.8 1999/12/06 18:23:30 gibbs Exp $
1.1  fvdl  */
1.1  fvdl
1.1  fvdl
1.1  fvdl #include <sys/types.h>
1.1  fvdl
1.1  fvdl #include <db.h>
1.1  fvdl #include <fcntl.h>
1.1  fvdl #include <stdio.h>
1.1  fvdl #include <stdlib.h>
1.1  fvdl #include <string.h>
1.1  fvdl #include <sysexits.h>
1.1  fvdl
1.1  fvdl #include "aicasm.h"
1.1  fvdl #include "aicasm_symbol.h"
1.1  fvdl
1.1  fvdl static DB *symtable;
1.1  fvdl
1.1  fvdl symbol_t *
1.1  fvdl symbol_create(name)
1.1  fvdl 	char *name;
1.1  fvdl {
1.1  fvdl 	symbol_t *new_symbol;
1.1  fvdl
1.1  fvdl 	new_symbol = (symbol_t *)malloc(sizeof(symbol_t));
1.1  fvdl 	if (new_symbol == NULL) {
1.1  fvdl 		perror("Unable to create new symbol");
1.1  fvdl 		exit(EX_SOFTWARE);
1.1  fvdl 	}
1.1  fvdl 	memset(new_symbol, 0, sizeof(*new_symbol));
1.1  fvdl 	new_symbol->name = strdup(name);
1.1  fvdl 	new_symbol->type = UNINITIALIZED;
1.1  fvdl 	return (new_symbol);
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symbol_delete(symbol)
1.1  fvdl 	symbol_t *symbol;
1.1  fvdl {
1.1  fvdl 	if (symtable != NULL) {
1.1  fvdl 		DBT	 key;
1.1  fvdl
1.1  fvdl 		key.data = symbol->name;
1.1  fvdl 		key.size = strlen(symbol->name);
1.1  fvdl 		symtable->del(symtable, &key, /*flags*/0);
1.1  fvdl 	}
1.1  fvdl 	switch(symbol->type) {
1.1  fvdl 	case SCBLOC:
1.1  fvdl 	case SRAMLOC:
1.1  fvdl 	case REGISTER:
1.1  fvdl 		if (symbol->info.rinfo != NULL)
1.1  fvdl 			free(symbol->info.rinfo);
1.1  fvdl 		break;
1.1  fvdl 	case ALIAS:
1.1  fvdl 		if (symbol->info.ainfo != NULL)
1.1  fvdl 			free(symbol->info.ainfo);
1.1  fvdl 		break;
1.1  fvdl 	case MASK:
1.1  fvdl 	case BIT:
1.1  fvdl 		if (symbol->info.minfo != NULL) {
1.1  fvdl 			symlist_free(&symbol->info.minfo->symrefs);
1.1  fvdl 			free(symbol->info.minfo);
1.1  fvdl 		}
1.1  fvdl 		break;
1.1  fvdl 	case DOWNLOAD_CONST:
1.1  fvdl 	case CONST:
1.1  fvdl 		if (symbol->info.cinfo != NULL)
1.1  fvdl 			free(symbol->info.cinfo);
1.1  fvdl 		break;
1.1  fvdl 	case LABEL:
1.1  fvdl 		if (symbol->info.linfo != NULL)
1.1  fvdl 			free(symbol->info.linfo);
1.1  fvdl 		break;
1.1  fvdl 	case UNINITIALIZED:
1.1  fvdl 	default:
1.1  fvdl 		break;
1.1  fvdl 	}
1.1  fvdl 	free(symbol->name);
1.1  fvdl 	free(symbol);
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symtable_open()
1.1  fvdl {
1.1  fvdl 	symtable = dbopen(/*filename*/NULL,
1.1  fvdl 			  O_CREAT | O_NONBLOCK | O_RDWR, /*mode*/0, DB_HASH,
1.1  fvdl 			  /*openinfo*/NULL);
1.1  fvdl
1.1  fvdl 	if (symtable == NULL) {
1.1  fvdl 		perror("Symbol table creation failed");
1.1  fvdl 		exit(EX_SOFTWARE);
1.1  fvdl 		/* NOTREACHED */
1.1  fvdl 	}
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symtable_close()
1.1  fvdl {
1.1  fvdl 	if (symtable != NULL) {
1.1  fvdl 		DBT	 key;
1.1  fvdl 		DBT	 data;
1.1  fvdl
1.1  fvdl 		while (symtable->seq(symtable, &key, &data, R_FIRST) == 0) {
1.1  fvdl 			symbol_t *stored_ptr;
1.1  fvdl
1.1  fvdl 			memcpy(&stored_ptr, data.data, sizeof(stored_ptr));
1.1  fvdl 			symbol_delete(stored_ptr);
1.1  fvdl 		}
1.1  fvdl 		symtable->close(symtable);
1.1  fvdl 	}
1.1  fvdl }
1.1  fvdl
1.1  fvdl /*
1.1  fvdl  * The semantics of get is to return an uninitialized symbol entry
1.1  fvdl  * if a lookup fails.
1.1  fvdl  */
1.1  fvdl symbol_t *
1.1  fvdl symtable_get(name)
1.1  fvdl 	char *name;
1.1  fvdl {
1.1  fvdl 	symbol_t *stored_ptr;
1.1  fvdl 	DBT	  key;
1.1  fvdl 	DBT	  data;
1.1  fvdl 	int	  retval;
1.1  fvdl
1.1  fvdl 	key.data = (void *)name;
1.1  fvdl 	key.size = strlen(name);
1.1  fvdl
1.1  fvdl 	if ((retval = symtable->get(symtable, &key, &data, /*flags*/0)) != 0) {
1.1  fvdl 		if (retval == -1) {
1.1  fvdl 			perror("Symbol table get operation failed");
1.1  fvdl 			exit(EX_SOFTWARE);
1.1  fvdl 			/* NOTREACHED */
1.1  fvdl 		} else if (retval == 1) {
1.1  fvdl 			/* Symbol wasn't found, so create a new one */
1.1  fvdl 			symbol_t *new_symbol;
1.1  fvdl
1.1  fvdl 			new_symbol = symbol_create(name);
1.1  fvdl 			data.data = &new_symbol;
1.1  fvdl 			data.size = sizeof(new_symbol);
1.1  fvdl 			if (symtable->put(symtable, &key, &data,
1.1  fvdl 					  /*flags*/0) !=0) {
1.1  fvdl 				perror("Symtable put failed");
1.1  fvdl 				exit(EX_SOFTWARE);
1.1  fvdl 			}
1.1  fvdl 			return (new_symbol);
1.1  fvdl 		} else {
1.1  fvdl 			perror("Unexpected return value from db get routine");
1.1  fvdl 			exit(EX_SOFTWARE);
1.1  fvdl 			/* NOTREACHED */
1.1  fvdl 		}
1.1  fvdl 	}
1.1  fvdl 	memcpy(&stored_ptr, data.data, sizeof(stored_ptr));
1.1  fvdl 	return (stored_ptr);
1.1  fvdl }
1.1  fvdl
1.1  fvdl symbol_node_t *
1.1  fvdl symlist_search(symlist, symname)
1.1  fvdl 	symlist_t *symlist;
1.1  fvdl 	char	  *symname;
1.1  fvdl {
1.1  fvdl 	symbol_node_t *curnode;
1.1  fvdl
1.1  fvdl 	curnode = symlist->slh_first;
1.1  fvdl 	while(curnode != NULL) {
1.1  fvdl 		if (strcmp(symname, curnode->symbol->name) == 0)
1.1  fvdl 			break;
1.1  fvdl 		curnode = curnode->links.sle_next;
1.1  fvdl 	}
1.1  fvdl 	return (curnode);
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symlist_add(symlist, symbol, how)
1.1  fvdl 	symlist_t *symlist;
1.1  fvdl 	symbol_t  *symbol;
1.1  fvdl 	int	  how;
1.1  fvdl {
1.1  fvdl 	symbol_node_t *newnode;
1.1  fvdl
1.1  fvdl 	newnode = (symbol_node_t *)malloc(sizeof(symbol_node_t));
1.1  fvdl 	if (newnode == NULL) {
1.1  fvdl 		stop("symlist_add: Unable to malloc symbol_node", EX_SOFTWARE);
1.1  fvdl 		/* NOTREACHED */
1.1  fvdl 	}
1.1  fvdl 	newnode->symbol = symbol;
1.1  fvdl 	if (how == SYMLIST_SORT) {
1.1  fvdl 		symbol_node_t *curnode;
1.1  fvdl 		int mask;
1.1  fvdl
1.1  fvdl 		mask = FALSE;
1.1  fvdl 		switch(symbol->type) {
1.1  fvdl 		case REGISTER:
1.1  fvdl 		case SCBLOC:
1.1  fvdl 		case SRAMLOC:
1.1  fvdl 			break;
1.1  fvdl 		case BIT:
1.1  fvdl 		case MASK:
1.1  fvdl 			mask = TRUE;
1.1  fvdl 			break;
1.1  fvdl 		default:
1.1  fvdl 			stop("symlist_add: Invalid symbol type for sorting",
1.1  fvdl 			     EX_SOFTWARE);
1.1  fvdl 			/* NOTREACHED */
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl 		curnode = symlist->slh_first;
1.1  fvdl 		if (curnode == NULL
1.1  fvdl 		 || (mask && (curnode->symbol->info.minfo->mask >
1.1  fvdl 		              newnode->symbol->info.minfo->mask))
1.1  fvdl 		 || (!mask && (curnode->symbol->info.rinfo->address >
1.1  fvdl 		               newnode->symbol->info.rinfo->address))) {
1.1  fvdl 			SLIST_INSERT_HEAD(symlist, newnode, links);
1.1  fvdl 			return;
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl 		while (1) {
1.1  fvdl 			if (curnode->links.sle_next == NULL) {
1.1  fvdl 				SLIST_INSERT_AFTER(curnode, newnode,
1.1  fvdl 						   links);
1.1  fvdl 				break;
1.1  fvdl 			} else {
1.1  fvdl 				symbol_t *cursymbol;
1.1  fvdl
1.1  fvdl 				cursymbol = curnode->links.sle_next->symbol;
1.1  fvdl 				if ((mask && (cursymbol->info.minfo->mask >
1.1  fvdl 				              symbol->info.minfo->mask))
1.1  fvdl 				 || (!mask &&(cursymbol->info.rinfo->address >
1.1  fvdl 				              symbol->info.rinfo->address))){
1.1  fvdl 					SLIST_INSERT_AFTER(curnode, newnode,
1.1  fvdl 							   links);
1.1  fvdl 					break;
1.1  fvdl 				}
1.1  fvdl 			}
1.1  fvdl 			curnode = curnode->links.sle_next;
1.1  fvdl 		}
1.1  fvdl 	} else {
1.1  fvdl 		SLIST_INSERT_HEAD(symlist, newnode, links);
1.1  fvdl 	}
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symlist_free(symlist)
1.1  fvdl 	symlist_t *symlist;
1.1  fvdl {
1.1  fvdl 	symbol_node_t *node1, *node2;
1.1  fvdl
1.1  fvdl 	node1 = symlist->slh_first;
1.1  fvdl 	while (node1 != NULL) {
1.1  fvdl 		node2 = node1->links.sle_next;
1.1  fvdl 		free(node1);
1.1  fvdl 		node1 = node2;
1.1  fvdl 	}
1.1  fvdl 	SLIST_INIT(symlist);
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symlist_merge(symlist_dest, symlist_src1, symlist_src2)
1.1  fvdl 	symlist_t *symlist_dest;
1.1  fvdl 	symlist_t *symlist_src1;
1.1  fvdl 	symlist_t *symlist_src2;
1.1  fvdl {
1.1  fvdl 	symbol_node_t *node;
1.1  fvdl
1.1  fvdl 	*symlist_dest = *symlist_src1;
1.1  fvdl 	while((node = symlist_src2->slh_first) != NULL) {
1.1  fvdl 		SLIST_REMOVE_HEAD(symlist_src2, links);
1.1  fvdl 		SLIST_INSERT_HEAD(symlist_dest, node, links);
1.1  fvdl 	}
1.1  fvdl
1.1  fvdl 	/* These are now empty */
1.1  fvdl 	SLIST_INIT(symlist_src1);
1.1  fvdl 	SLIST_INIT(symlist_src2);
1.1  fvdl }
1.1  fvdl
1.1  fvdl void
1.1  fvdl symtable_dump(ofile)
1.1  fvdl 	FILE *ofile;
1.1  fvdl {
1.1  fvdl 	/*
1.1  fvdl 	 * Sort the registers by address with a simple insertion sort.
1.1  fvdl 	 * Put bitmasks next to the first register that defines them.
1.1  fvdl 	 * Put constants at the end.
1.1  fvdl 	 */
1.1  fvdl 	symlist_t registers;
1.1  fvdl 	symlist_t masks;
1.1  fvdl 	symlist_t constants;
1.1  fvdl 	symlist_t download_constants;
1.1  fvdl 	symlist_t aliases;
1.1  fvdl
1.1  fvdl 	SLIST_INIT(&registers);
1.1  fvdl 	SLIST_INIT(&masks);
1.1  fvdl 	SLIST_INIT(&constants);
1.1  fvdl 	SLIST_INIT(&download_constants);
1.1  fvdl 	SLIST_INIT(&aliases);
1.1  fvdl
1.1  fvdl 	if (symtable != NULL) {
1.1  fvdl 		DBT	 key;
1.1  fvdl 		DBT	 data;
1.1  fvdl 		int	 flag = R_FIRST;
1.1  fvdl
1.1  fvdl 		while (symtable->seq(symtable, &key, &data, flag) == 0) {
1.1  fvdl 			symbol_t *cursym;
1.1  fvdl
1.1  fvdl 			memcpy(&cursym, data.data, sizeof(cursym));
1.1  fvdl 			switch(cursym->type) {
1.1  fvdl 			case REGISTER:
1.1  fvdl 			case SCBLOC:
1.1  fvdl 			case SRAMLOC:
1.1  fvdl 				symlist_add(&registers, cursym, SYMLIST_SORT);
1.1  fvdl 				break;
1.1  fvdl 			case MASK:
1.1  fvdl 			case BIT:
1.1  fvdl 				symlist_add(&masks, cursym, SYMLIST_SORT);
1.1  fvdl 				break;
1.1  fvdl 			case CONST:
1.1  fvdl 				if (cursym->info.cinfo->define == FALSE) {
1.1  fvdl 					symlist_add(&constants, cursym,
1.1  fvdl 						    SYMLIST_INSERT_HEAD);
1.1  fvdl 				}
1.1  fvdl 				break;
1.1  fvdl 			case DOWNLOAD_CONST:
1.1  fvdl 				symlist_add(&download_constants, cursym,
1.1  fvdl 					    SYMLIST_INSERT_HEAD);
1.1  fvdl 				break;
1.1  fvdl 			case ALIAS:
1.1  fvdl 				symlist_add(&aliases, cursym,
1.1  fvdl 					    SYMLIST_INSERT_HEAD);
1.1  fvdl 				break;
1.1  fvdl 			default:
1.1  fvdl 				break;
1.1  fvdl 			}
1.1  fvdl 			flag = R_NEXT;
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl 		/* Put in the masks and bits */
1.1  fvdl 		while (masks.slh_first != NULL) {
1.1  fvdl 			symbol_node_t *curnode;
1.1  fvdl 			symbol_node_t *regnode;
1.1  fvdl 			char *regname;
1.1  fvdl
1.1  fvdl 			curnode = masks.slh_first;
1.1  fvdl 			SLIST_REMOVE_HEAD(&masks, links);
1.1  fvdl
1.1  fvdl 			regnode =
1.1  fvdl 			    curnode->symbol->info.minfo->symrefs.slh_first;
1.1  fvdl 			regname = regnode->symbol->name;
1.1  fvdl 			regnode = symlist_search(&registers, regname);
1.1  fvdl 			SLIST_INSERT_AFTER(regnode, curnode, links);
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl 		/* Add the aliases */
1.1  fvdl 		while (aliases.slh_first != NULL) {
1.1  fvdl 			symbol_node_t *curnode;
1.1  fvdl 			symbol_node_t *regnode;
1.1  fvdl 			char *regname;
1.1  fvdl
1.1  fvdl 			curnode = aliases.slh_first;
1.1  fvdl 			SLIST_REMOVE_HEAD(&aliases, links);
1.1  fvdl
1.1  fvdl 			regname = curnode->symbol->info.ainfo->parent->name;
1.1  fvdl 			regnode = symlist_search(&registers, regname);
1.1  fvdl 			SLIST_INSERT_AFTER(regnode, curnode, links);
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl 		/* Output what we have */
1.1  fvdl 		fprintf(ofile,
1.1  fvdl "/*
1.1  fvdl   * DO NOT EDIT - This file is automatically generated.
1.1  fvdl   */\n");
1.1  fvdl 		while (registers.slh_first != NULL) {
1.1  fvdl 			symbol_node_t *curnode;
1.1  fvdl 			u_int8_t value;
1.1  fvdl 			char *tab_str;
1.1  fvdl 			char *tab_str2;
1.1  fvdl
1.1  fvdl 			curnode = registers.slh_first;
1.1  fvdl 			SLIST_REMOVE_HEAD(&registers, links);
1.1  fvdl 			switch(curnode->symbol->type) {
1.1  fvdl 			case REGISTER:
1.1  fvdl 			case SCBLOC:
1.1  fvdl 			case SRAMLOC:
1.1  fvdl 				fprintf(ofile, "\n");
1.1  fvdl 				value = curnode->symbol->info.rinfo->address;
1.1  fvdl 				tab_str = "\t";
1.1  fvdl 				tab_str2 = "\t\t";
1.1  fvdl 				break;
1.1  fvdl 			case ALIAS:
1.1  fvdl 			{
1.1  fvdl 				symbol_t *parent;
1.1  fvdl
1.1  fvdl 				parent = curnode->symbol->info.ainfo->parent;
1.1  fvdl 				value = parent->info.rinfo->address;
1.1  fvdl 				tab_str = "\t";
1.1  fvdl 				tab_str2 = "\t\t";
1.1  fvdl 				break;
1.1  fvdl 			}
1.1  fvdl 			case MASK:
1.1  fvdl 			case BIT:
1.1  fvdl 				value = curnode->symbol->info.minfo->mask;
1.1  fvdl 				tab_str = "\t\t";
1.1  fvdl 				tab_str2 = "\t";
1.1  fvdl 				break;
1.1  fvdl 			default:
1.1  fvdl 				value = 0; /* Quiet compiler */
1.1  fvdl 				tab_str = NULL;
1.1  fvdl 				tab_str2 = NULL;
1.1  fvdl 				stop("symtable_dump: Invalid symbol type "
1.1  fvdl 				     "encountered", EX_SOFTWARE);
1.1  fvdl 				break;
1.1  fvdl 			}
1.1  fvdl 			fprintf(ofile, "#define%s%-16s%s0x%02x\n",
1.1  fvdl 				tab_str, curnode->symbol->name, tab_str2,
1.1  fvdl 				value);
1.1  fvdl 			free(curnode);
1.1  fvdl 		}
1.1  fvdl 		fprintf(ofile, "\n\n");
1.1  fvdl
1.1  fvdl 		while (constants.slh_first != NULL) {
1.1  fvdl 			symbol_node_t *curnode;
1.1  fvdl
1.1  fvdl 			curnode = constants.slh_first;
1.1  fvdl 			SLIST_REMOVE_HEAD(&constants, links);
1.1  fvdl 			fprintf(ofile, "#define\t%-8s\t0x%02x\n",
1.1  fvdl 				curnode->symbol->name,
1.1  fvdl 				curnode->symbol->info.cinfo->value);
1.1  fvdl 			free(curnode);
1.1  fvdl 		}
1.1  fvdl
1.1  fvdl
1.1  fvdl 		fprintf(ofile, "\n\n/* Downloaded Constant Definitions */\n");
1.1  fvdl
1.1  fvdl 		while (download_constants.slh_first != NULL) {
1.1  fvdl 			symbol_node_t *curnode;
1.1  fvdl
1.1  fvdl 			curnode = download_constants.slh_first;
1.1  fvdl 			SLIST_REMOVE_HEAD(&download_constants, links);
1.1  fvdl 			fprintf(ofile, "#define\t%-8s\t0x%02x\n",
1.1  fvdl 				curnode->symbol->name,
1.1  fvdl 				curnode->symbol->info.cinfo->value);
1.1  fvdl 			free(curnode);
1.1  fvdl 		}
1.1  fvdl 	}
1.1  fvdl }
1.1  fvdl